Effects of surface air injection on the air stability of superhydrophobic surface under partial replenishment of plastron
SCIE
SCOPUS
- Title
- Effects of surface air injection on the air stability of superhydrophobic surface under partial replenishment of plastron
- Authors
- Cho, Wonhee; Heo, Seongkwang; Lee, Sang Joon
- Date Issued
- 2022-12
- Publisher
- American Institute of Physics
- Abstract
- Frictional drag reduction using a superhydrophobic (SHPo) surface has attracted great attention due to its potential for practical application. Air plastron (i.e., pockets) trapped between structures in a submerged SHPo surface serves a crucial role in the drag reduction effect. However, the air plastron on the SHPo surface can easily be depleted by various factors, resulting in the deterioration of the drag reduction performance. This study proposed a surface air injection method to resolve the depletion problem and explored its effect on the enhancement of the air stability of the SHPo surface as a controllable strategy under partial replenishment conditions in which the replenishment rate is less than the depletion rate. An air injection layer is added to a ridged multi-layered SHPo (ML-SHPo) surface to supply air through the surface. The dynamic behavior of air plastron on the surface is directly visualized by an x-ray imaging technique. The temporal evolution of depletion length on the ridged ML-SHPo surface is monitored under laminar flows to understand the underlying basic physics of the enhanced air stability caused by surface air injection. The depletion rate of air plastrons on SHPo surfaces depended on the nondimensional air injection rate (C q). The dynamic behavior in the air depletion regime is closely associated with flow condition and C q. The stability of air plastrons is enhanced by 12%-87% as the C q value increases. In addition, a simple scaling relationship between the depletion rate and C q is proposed to predict the depletion rate of air plastrons (longevity) on ridged SHPo surfaces. © 2022 Author(s).
- URI
- https://oasis.postech.ac.kr/handle/2014.oak/116757
- DOI
- 10.1063/5.0130533
- ISSN
- 1070-6631
- Article Type
- Article
- Citation
- Physics of Fluids, vol. 34, no. 12, page. 122115, 2022-12
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